1) Both the C# specification and the CLI specification permit this.
The C# standard says that
A source file is an ordered sequence of Unicode characters.
An identifier in a conforming program must be in the canonical format
defined by Unicode Normalization Form C, as defined by Unicode
Standard Annex 15. The behavior when encountering an identifier not in
Normalization Form C is implementation-defined; however, a diagnostic
is not required.
The ECMA CLI standard has this to say:
Names are given to entities of the type system so that they can be referred to by other
parts of the type system or by the implementations of the types. Types, fields, methods,
properties, and events have names. With respect to the type system, values, locals, and
parameters do not have names. An entity of the type system is given a single name (e.g.,
there is only one name for a type).
I.8.5.1 Valid names
All name comparisons are done on a byte-by-byte (i.e., case sensitive, locale-
independent, also known as code-point comparison) basis. Where names are used to access
built-in VES-supplied functionality (e.g., the class initialization method) there is
always an accompanying indication on the definition so as not to build in any set of
Important passage follows:
CLS Rule 4: Assemblies shall follow Annex 7 of Technical Report 15 of the Unicode
Standard 3.0 governing the set of characters permitted to start and be included in
identifiers, available online at http://www.unicode.org/unicode/reports/tr15/tr15-18.html
Identifiers shall be in the canonical format defined by Unicode Normalization Form C.
For CLS purposes, two identifiers are the same if their lowercase mappings (as specified
by the Unicode locale-insensitive, one-to-one lowercase mappings) are the same. That is,
for two identifiers to be considered different under the CLS they shall differ in more
than simply their case. However, in order to override an inherited definition the CLI
requires the precise encoding of the original declaration be used.
CLS (consumer): Need not consume types that violate CLS Rule 4, but shall have a
mechanism to allow access to named items that use one of its own keywords as the name.
CLS (extender): Need not create types that violate CLS Rule 4. Shall provide a mechanism
for defining new names that obey these rules, but are the same as a keyword in the
CLS (framework): Shall not export types that violate CLS Rule 4. Should avoid the use of
names that are commonly used as keywords in programming languages.
2) There should be no performance impact whatsoever. The CLI rules state that matching of names has to be done using the Unicode locale-insensitive mappings, which means that when two names need to be compared there has to be a conversion to a sequence of Unicode code points. If the compiler or runtime chooses to keep this information in a variable-length encoding such as UTF-8 and convert to code points on the fly then theoretically there would be some performance difference; practically I do not expect any implementation to do this, or the performance difference to be measurable if they did.
Note that CLS rule 4 says that "in order to override an inherited definition the CLI requires the precise encoding of the original declaration be used", which does place a specific restriction when overriding names. But since this is not a universal requirement, the "convert everything to code points before comparing" has to be implemented anyway.
3) Again, it is in the CLI specification so the language has to do it.